A bridge detecting vehicle with two foldable arms, including: a vehicle body, slewing mechanisms, horizontal and vertical arms and telescopic arms. One end of the two horizontal arms is respectively arranged on the slewing mechanisms, and the other end of the two horizontal arms is respectively connected to the two horizontal arms. A crossed arm is provided between the two horizontal arms. The two vertical arms are respectively connected to the two horizontal arms via ball joints. A detecting device is respectively provided at rear ends of the two telescopic arms.

A storage module connects to a frame forming a door opening of a vehicle. The storage module includes a housing conforming to the door opening and extending into the compartment in an installed configuration. The storage module further includes an exterior panel disposed on a first side of the housing. The exterior panel conforms to an exterior surface of the vehicle enclosing the door opening. At least one storage compartment is disposed inside the housing and the compartment in the installed configuration. The storage compartment includes an access panel forming a portion of the exterior surface and forms a first storage volume.

An in-vehicle building material processing system including: a flat cargo bed formed on a vehicle; rigid members for ensuring flatness with respect to a workpiece-receiving table formed at predetermined section of the cargo bed; clampers for fixing a building material on the workpiece-receiving table; a multi-joint robot provided with a freely swingable cutting means at its tip, which is capable of protruding in a range wider than outer periphery of the workpiece-receiving table; and a control unit having an operation unit for making the multi-joint robot to cut and process the building material desirably, wherein the control unit controls the cutting means to cut and process the building material while controlling at least either of the cutting means and the clampers to avoid a contact of the cutting means and the clampers.

An in-vehicle building material processing system including: a flat cargo bed formed on a vehicle; rigid members for ensuring flatness with respect to a workpiece-receiving table formed at predetermined section of the cargo bed; clampers for fixing a building material on the workpiece-receiving table; a multi-joint robot provided with a freely swingable cutting means at its tip, which is capable of protruding in a range wider than outer periphery of the workpiece-receiving table; and a control unit having an operation unit for making the multi-joint robot to cut and process the building material desirably, wherein the control unit controls the cutting means to cut and process the building material while controlling at least either of the cutting means and the clampers to avoid a contact of the cutting means and the clampers.

A removable and replaceable tool storage compartment apparatus including tool storage compartments and a compartment receiver. The tool storage compartments each include a frame, a plurality of panels coupled to the frame. A closure is configured to open and close an entrance to an inside of the tool storage compartment. The compartment receiver is configured to secure to a truck and support the tool storage compartment thereon. Lift mounts are coupled to the tool storage compartment and are used to remove the tool storage compartments from the truck. A lock arm is configured to lock the compartment receiver to secure the tool storage compartments to a bay to receive storage compartment to the truck.

A removable and replaceable tool storage compartment apparatus including tool storage compartments and a compartment receiver. The tool storage compartments each include a frame, a plurality of panels coupled to the frame. A closure is configured to open and close an entrance to an inside of the tool storage compartment. The compartment receiver is configured to secure to a truck and support the tool storage compartment thereon. Lift mounts are coupled to the tool storage compartment and are used to remove the tool storage compartments from the truck. A lock arm is configured to lock the compartment receiver to secure the tool storage compartments to a bay to receive storage compartment to the truck.

Delivery of a modularly reconfigurable vehicle may include receiving a request for the modularly reconfigurable vehicle, including a desired configuration associated with the modularly reconfigurable vehicle and a location associated with the request. Delivery of a modularly reconfigurable vehicle may include identifying the modularly reconfigurable vehicle from a plurality of candidate modularly reconfigurable vehicles and a target reconfiguration station from a plurality of candidate reconfiguration stations, providing an instruction to the modularly reconfigurable vehicle to travel to the target reconfiguration station, upon the modularly reconfigurable vehicle reaching the target reconfiguration station, providing an instruction to reconfigure the modularly reconfigurable vehicle according to the desired configuration as a modularly reconfigured vehicle, and upon the modularly reconfigured vehicle being reconfigured according to the desired configuration, providing an instruction to the modularly reconfigured vehicle to travel to the location associated with the request.

Delivery of a modularly reconfigurable vehicle may include receiving a request for the modularly reconfigurable vehicle, including a desired configuration associated with the modularly reconfigurable vehicle and a location associated with the request. Delivery of a modularly reconfigurable vehicle may include identifying the modularly reconfigurable vehicle from a plurality of candidate modularly reconfigurable vehicles and a target reconfiguration station from a plurality of candidate reconfiguration stations, providing an instruction to the modularly reconfigurable vehicle to travel to the target reconfiguration station, upon the modularly reconfigurable vehicle reaching the target reconfiguration station, providing an instruction to reconfigure the modularly reconfigurable vehicle according to the desired configuration as a modularly reconfigured vehicle, and upon the modularly reconfigured vehicle being reconfigured according to the desired configuration, providing an instruction to the modularly reconfigured vehicle to travel to the location associated with the request.

A core analysis system having a trailer and an analysis assembly secured to the trailer. The analysis assembly includes an X-ray Fluorescence (XRF) detection subassembly defining a sample analysis area. The analysis assembly further includes a conveyor subassembly configured to selectively deliver one of more core samples to the sample analysis area of the XRF detection subassembly.

A core analysis system having a trailer and an analysis assembly secured to the trailer. The analysis assembly includes an X-ray Fluorescence (XRF) detection subassembly defining a sample analysis area. The analysis assembly further includes a conveyor subassembly configured to selectively deliver one of more core samples to the sample analysis area of the XRF detection subassembly.